DE2624009C3 - Device for measuring the distance of the surface of an electrically conductive medium from an observation point arranged above this surface - Google Patents

Description

The invention relates to a device for measuring the distance between the surface of an electrically conductive medium and one above this surface arranged observation point, in particular the water level of a well from the edge of the well, with

is an eland drum on which it can be unwound and wound up a length measuring tape od. dgL is arranged, a signal transmitter provided on the tape drum and one at the free end of the length measuring tape arranged contact probe, which when touching the surface over an electronic switch closes a supply circuit and the signal generator for outputting a Signal initiated.

There is a device of this type known under the designation cable light solder, in which to Measure the length measuring tape or the cable, which is provided with a centimeter graduation, from the Drum is unwound, which for longer lengths (lengths up to 500 m are also required) some Takes time. A lamp is provided as a signal transmitter, which lights up as soon as the contact probe touches the water surface with its scanning tip and this closes the display circuit. Such cable soldering lines are used in particular for indirect Groundwater level measurement in observation wells required. When the lamp lights up, the Read the centimeter graduation on the cable or measuring tape and thus the distance to the edge of the well measured from the water surface, from which the water level in the well can be determined.

In addition to the water level, ar "h is the temperature of the Well water of interest. On the one hand, so-called ladle thermometers are used to measure the temperature used, which are too imprecise at great depths, since the temperature of the z. B.

Mercury thermometer changed while being pulled out from e.g. 100m depth. On the other hand will be also uses electrical thermometers, but these are very expensive so they are not used on a large scale are used. In addition, the successive measurements of the water level and the Water temperature is tedious in that two probes are lowered one after the other, e.g. 100 or even 500m need to be, not to mention the time required. In addition, the person performing the measurements must Person carry two devices with them, which is a hindrance, especially in rough terrain (pasture fences or the like) is; as is well known, the observation wells are often located in rural areas.

The object on which the invention is based is seen to further develop a device of the type mentioned at the beginning in such a way that it can also be used for a temperature measurement at the same time.
This object is achieved according to the invention in that the Köntäktsonde is equipped as a measuring probe with a temperature resistor which, with a potentiometer, is part of a bridge circuit for measuring the temperature resistance

alternatively controllable signal generators are provided and that the bridge circuit is used in such a way as a measuring and Display electronics is designed that in a bridge adjustment made by means of the potentiometer the signaling is switched from one to the other signaling device

With the device according to the invention, only a single probe is needed to reach the surface of the water of the deep well to be lowered to then both the water level and the To be able to determine the water temperature, which is a considerable advantage in terms of reducing the Brings effort and increase in convenience

The temperature resistance expediently has a linear temperature dependency. This simplifies the temperature display is essential. Furthermore, the temperature resistance can be in one in the measuring probe or the like. Encapsulate arranged metal tube to protect it from damage.

In a preferred embodiment, the potentiometer is manually operable by means of a Adjustable dial, which has a graduation and a stationary marking line works together It is useful to have the dial and the marking line on one face of the Belt drum arranged Turn the dial until the signal changes from one to the other signal transmitter takes place, then the temperature in degrees can be read directly on the scale read off, e.g. B. Degrees Celsius. Two lamps have proven themselves as signal transmitters

The invention and its advantageous embodiments are explained in more detail below with reference to an embodiment shown in the drawing

It shows

F i g. 1 is a sectional side view of the device according to the invention;

F i g. 2 shows a view in the direction of arrow A in FIG. 1 of the upper part of the device;

FIG. 3 shows the detail of FIG. 2 on an enlarged scale;

F i g. 4 shows a circuit diagram of the electronics of the device according to the invention.

In Fig. 1, a tape drum 1 is shown, which is on an axis 2 in a portable frame with a handle 4 is rotatably mounted. The frame 4 can have a substantially U-shaped support 5 on its underside have, by means of which it can be deposited, for example, on the edge of a well.

A can be unwound and wound up on the tape drum M 1 Length measuring tape 6 attached at 7. The corresponding rotation of the belt drum 1 takes place by means of a rotatably arranged crank knob 8. On the belt drum 1 are also two signal transmitters 9 and 15 arranged with a contact probe 10 arranged at the free end of the length measuring tape 6 are connected via an electronic circuit to be explained in more detail below. The contact probe 10 closes when the surface (not shown) is touched, for example the water level Beöbächtungsbrunnens, via an electronic Switch 11 a supply circuit, which is one of the Signal generator 9 or 15 causes a signal to be emitted. Closing the supply circuit takes place as soon as a contact tip 10 'touches the water. An outer protective cover 10 "forms the other end of the line, which is already immersed in the water beforehand, in such a way that a current between the Contact tip 10 'and the protective sleeve 10 "can flow as soon as the water bridges both ends of the line forms In order to save electricity, the electronic switch 11 only sets the at this moment Supply voltage. In order to facilitate the access of water to the contact tip 10 ', the protective sleeve 10 "has at least two lateral openings 25 at the level of the contact tip 10 '. The power supply

to is provided for example by batteries 12

According to the invention, the contact probe 10 is equipped as a measuring probe with a temperature resistor 13 this temperature resistor 1.1 and a potentiometer 14 parts of a bridge circuit for Measurement of the temperature resistance 13 are. Furthermore, the two signal transmitters 9 and 15 are alternative controllable; In addition, the bridge circuit is in such a way to a measuring and display electronics 16 (Fig. 4) formed that when a bridge adjustment made by means of the potentiometer 14 a change of Signaling from one to the other signal transmitter 9 or 15 takes place

The measuring and display electronics J6 are integrated with the electronic switch 11 in an electronic assembly 17 (FIG. 1) which, like the potentiometer 14 belonging to the measuring and display electronics 16 and the batteries 12, are arranged inside the belt drum 1.
The temperature resistor 13 expediently has a linear temperature dependence and can also be encapsulated in a metal tube 18 or the like arranged in the measuring probe or contact probe 10 and forming the contact tip 10 ', in order to be protected against contamination and damage. The temperature resistance can be formed in a known manner by a thermistor pair, which is expediently arranged in the contact tip 10 ', and a linearization network.

In the preferred embodiment shown, the potentiometer 14 is by means of a hand actuatable dial 19 adjustable, which has a graduation 20 (Fig. 3) and with a stationary marking line 21 cooperates. As can be easily seen, the dial 19 and the marking line 21 is arranged on the free end face 22 of the belt drum 1. As at the show Embodiment, the dial 19 is largely covered by a cap 26, the one has arcuate observation gap 27 is the

thus marking line 21 is arranged on this cover plate 26. The top cap is how special clearly from Fig. can be seen on its underside cut along a secant 28 to the unte'en To release the edge of the dial 19, so that the dicjG can be rotated by hand.

The two signal generators 9, 15 are preferably two lamps 23, 24. It goes without saying that the signal generators can optionally also be designed acoustically. The measuring and display electronics 16, to which the Bridge switch; and thus the temperature resistance 13 includes a comparator 28 for checking the sign of the voltage of the bridge diagonal and to control the corresponding lamp £ 3 or 24. Furthermore, 16 is in the measuring and display electronics inverting amplifier 29 is provided, which ensures that the one lamp lights up exactly when the other lamp goes out

In the following the function of the erfindungsgf.mä-

Ben device explained in more detail.

First, the contact or measuring probe 10 is unwound from the tape drum 1 on the length measuring tape and thus left in the deep until one of the two Lamps 23 or 24 light up. This means that the contact tip 10 ', for example, the water surface touched a well. The distance to the surface of the water or the water level can now can be read on the length measuring tape, the rest of the necessary lines between the measuring probe 10 and measurement and display electronics 16 carries.

As soon as the contact tip 10 'touches the surface of the water, a current flows from it via a line a via the finite resistance 30 (FIG. 4) of the water to the previously immersed protective sleeve 10 ″ conductive material. The protective sleeve 10 ″ is connected to one pole of the battery 12 via a line /.

The electronic switch II is closed by this current in such a way that the supply voltage is applied to the measuring and display electronics 16 with low resistance via two further lines b and c. The lighting up of the lamp 23 or the lamp 24 indicates that this has occurred. If the measuring probe 10 is pulled out of the water again, the electronic switch 11 automatically switches off the device according to the invention, so that no unnecessary power consumption can occur due to carelessness, so that the batteries used or the power supply 12 keep the device functional for a particularly long time.

In order to also measure the temperature, the resistance of the potentiometer 14 is increased by a Turning the dial 19 changed until a bridge adjustment is made. The entered Bridge balancing is indicated by a change in the lighting up of lamps 23 and 24, i. h., the Lamp 24 goes out and lamp 23 lights up, or vice versa.

The change in the lighting of the lamps is achieved by the comparator 28 measuring the voltage of the Checks the sign of the bridge diagonal and controls the lamp accordingly inverting amplifier 29 is provided, the balancing of the bridge can be set very sensitively after one lamp lights up exactly when the other lamp goes dark.

If the adjustment is set, the temperature can be read very precisely on the graduated disk 19 at the marking line 21 using the graduation 20. In the embodiment shown, a division interval corresponds to 0.1 ^° C. in each case.

It goes without saying that it is not necessary to only increase the temperature at the surface of the water measure, since it is rather possible to move the probe as far as you want, if necessary to the bottom of the well drain and measure the temperature there. It can thus be different measuring points in different Head for water depths.

A 3-wire circuit is preferably used to measure the temperature resistance 13, thus, especially with long cable or tape lengths, the temperature-changing resistances of the The supply lines arranged on the length measuring tape compensate each other in the bridge circuit. For smaller ones Cable lengths, however, a measurement of the temperature resistance 13 in a 2-wire circuit is possible, the two lines e and / (FIG. 4) would then be combined. The length measuring tape would have thus three conductors. In this case one would use the length measuring tape itself, which would be made of steel exists, in order to be particularly elastic and free of stretching, to be used as a conductor a, so the invention could be used Realize even if two other electrical conductors are insulated in addition to the steel strip on the length measuring tape are arranged.

The length measuring tape is expediently designed such that between the measuring probe 10 and the measuring and Display electronics 16 or the electronic switch 11 on the back of the length measuring tape 6 in Individual conductor strands 31, which are fastened in an isolated manner in the longitudinal direction, are provided. The introduction of enamel-insulated copper wires in a coating applied to a steel strip.

For this purpose 2 sheets of drawings

Claims (11)

Patent claims: 1. Device for measuring the distance of the surface of an electrically conductive medium from an observation point arranged above this surface, in particular the water level of a well from the edge of the well, with a belt drum, on which one can be wound and unwound Length measuring tape or the like. Is arranged, one on the tape drum provided signal generator and one at the free end of the length measuring tape arranged contact probe, which when the surface is touched via an electronic switch a Supply circuit closes and causes the signal generator to output a signal, thereby characterized in that the contact probe (10) as a measuring probe with a temperature resistor (13) is equipped, which is part of a bridge circuit for measurement with a potentiometer (14) of the temperature resistance is that two alternatively ansteueri> .ire signal generators (9, 15) are provided and that ώε bridge interlocking leads to a measurement and display electronics (16) is designed that in one made by means of the potentiometer Bridge adjustment the signaling is changed from one to the other signal transmitter (9 or 15). 2. Apparatus according to claim 1, characterized in that the temperature resistor (13) has a has linear temperature dependence. 3. Apparatus according to claim 1 or 2, characterized in that the temperature resistor (13) is encapsulated in a metal tube (18) or the like arranged in the measuring probe (10). 4. Device according to Anspinch 1, characterized in that that the potentiometer (14) can be adjusted by means of a hand-operated dial (19) which has a graduation (20) and cooperates with a stationary marking line (21). 5. Apparatus according to claim 4, characterized in that the dial (19) and the Marking line (21) are arranged on one end face (22) of the belt drum (1). 6. Apparatus according to claim 1, characterized in that that the two signal transmitters (9, 15) are two lamps (23, 24). 7. Apparatus according to claim 1 or 6, characterized in that the measuring and display electronics (16) a comparator (28) for checking the sign of the voltage of the bridge diagonal and for controlling the corresponding lamp (23, 24). 8. Apparatus according to claim 1 or 7, characterized in that in the measuring and display electronics (16) an inverting amplifier (29) is provided, which ensures that the one lamp lights up exactly when the other lamp goes out. 9. The device according to claim 1, characterized in that a 3-wire circuit (d, e, f) is used to measure the temperature resistance (13) for reasons of compensation. 10. Apparatus according to claim 1 or 9, characterized characterized in that the measuring and display electronics (16) including signal transmitters (9, 15) and Power supply (12) are arranged in the belt drum (1). 11. The device according to claim 10, characterized characterized in that the electrical connection between the measuring probe (10) and the measuring and Display electronics (16) isolated from on the back of the length measuring tape (6) in the longitudinal direction attached individual conductor strands (31).